I need to design an antenna for an EM field probe with a bandpass of 100 kHz to 6GHz. After some heavy research, I found that the best way to make my antenna is by making a dipole which radiates on this frequency band and repeat it 3 times on a pyramid to verify the isotropy. The problem though is that I still can't design a dipole which radiates on this suuuuper ultra wideband. The maximum I could do was from 3 GHz to 6 GHz but the size of my dipole turns quite big (around 20 cm) if i'm correct and I need a really small antenna-(1-2 cm if possible).

so, I wanted to ask you guys for some help, hopefully someone has an idea to suggest.

Maybe not 1-2 cm but still I can try making one around 5cmx5cm at least ? The mobile antennas manage to radiate at around 800MHz though they are quite small. Isn't it possible to do the same with a microstrip antenna that radiates at 800 MHz to 6GHz ? They must be other techniques for reducing the size of the dipoles beside the folded dipole technique and as well as increasing the bandwidth (other than increasing the volume). I was also thinking about the electrically short dipoles but I still can't manage to define the dimensions.

There are already quite small commercialized probes with an antenna which radiate from 100 kHz to 6 GHz. So I guess there must be a way somehow?

I was hoping for a decent sensitivity (the ideal would be detecting from 0.1 V/m) but I don't mind at first a lower sensitivity around 3 V/m for a try.

This is exactly the kind of products I have to design !
Unfortunately, I don't have an exact idea concerning the technology adopted. I've looked through few articles on IEEE unfortunately I don't manage to find the correct dimensions for my dipole, the dimensions given are often narrow band compared to what I want.